Soybean Trihelix transcription factors GmGT-2A and GmGT-2B improve plant tolerance to abiotic stresses in transgenic Arabidopsis - Test2 - elhamkhani - TriplyDB

Soybean Trihelix transcription factors GmGT-2A and GmGT-2B improve plant tolerance to abiotic stresses in transgenic Arabidopsis

Soybean Trihelix transcription factors GmGT-2A and GmGT-2B improve plant tolerance to abiotic stresses in transgenic Arabidopsis

http://www.wikidata.org/entity/Q33500163

about

Transcriptome-wide profiling and expression analysis of transcription factor families in a liverwort, Marchantia polymorpha Genome-wide phylogenetic comparative analysis of plant transcriptional regulation: a timeline of loss, gain, expansion, and correlation with complexity Evolutionary history of trihelix family and their functional diversification Insights into salt tolerance from the genome of Thellungiella salsuginea.Evaluation of candidate reference genes for normalization of quantitative RT-PCR in soybean tissues under various abiotic stress conditions Trihelix transcription factor GT-4 mediates salt tolerance via interaction with TEM2 in Arabidopsis Soybean GmMYB73 promotes lipid accumulation in transgenic plants.Interaction of Arabidopsis Trihelix-Domain Transcription Factors VFP3 and VFP5 with Agrobacterium Virulence Protein VirF.Identification and in silico characterization of soybean trihelix-GT and bHLH transcription factors involved in stress responses.Positional cloning and characterization reveal the molecular basis for soybean maturity locus E1 that regulates photoperiodic flowering.Comprehensive analysis of trihelix genes and their expression under biotic and abiotic stresses in Populus trichocarpa.Subcellular protein overexpression to develop abiotic stress tolerant plants.Transcriptome-Wide Identification and Expression Profiling Analysis of Chrysanthemum Trihelix Transcription Factors.Soybean C2H2-Type Zinc Finger Protein GmZFP3 with Conserved QALGGH Motif Negatively Regulates Drought Responses in Transgenic Arabidopsis.Using an ensemble of statistical metrics to quantify large sets of plant transcription factor binding sites.The Wheat GT Factor TaGT2L1D Negatively Regulates Drought Tolerance and Plant Development.BnSIP1-1, a Trihelix Family Gene, Mediates Abiotic Stress Tolerance and ABA Signaling in Brassica napus.Photosynthetic gene expression in higher plants.Genome-wide Analysis and Expression Divergence of the Trihelix family in Brassica Rapa: Insight into the Evolutionary Patterns in Plants.Soybean NAC transcription factors promote abiotic stress tolerance and lateral root formation in transgenic plants.GmWRKY27 interacts with GmMYB174 to reduce expression of GmNAC29 for stress tolerance in soybean plants.The Arabidopsis GTL1 transcription factor regulates water use efficiency and drought tolerance by modulating stomatal density via transrepression of SDD1.Heme oxygenase up-regulation under ultraviolet-B radiation is not epigenetically restricted and involves specific stress-related transcriptions factors How the nucleus and mitochondria communicate in energy production during stress: nuclear MtATP6, an early-stress responsive gene, regulates the mitochondrial F₁F₀-ATP synthase complex.Genome-wide identification and transcription analysis of soybean carotenoid oxygenase genes during abiotic stress treatments.Cloning and functional analysis of the flowering gene GmSOC1-like, a putative SUPPRESSOR OF OVEREXPRESSION CO1/AGAMOUS-LIKE 20 (SOC1/AGL20) ortholog in soybean.Identification of a regulatory element responsible for salt induction of rice OsRAV2 through ex situ and in situ promoter analysis.Functional Genomics of Drought Tolerance in Bioenergy Crops A Trihelix Family Transcription Factor Is Associated with Key Genes in Mixed-Linkage Glucan Accumulation

P2860

Q28660869-182F33F0-5A99-41C2-A958-8ADC4057A74E Q28744443-C70FE13E-51BC-4A3E-8FB8-F0D413570DCE Q34331148-418F5A5D-4DAD-4358-8404-997C8408CD1B Q34331862-5FF7FDA1-CA16-40E6-B2AC-37DAA2CF6BA4 Q34431327-0E9E3FFD-E5A2-4D77-8095-60D4AC0CD4FD Q34709456-9ED0EE02-77E6-4F7E-B66F-F404845E1656 Q35127394-79BAE8FA-B733-4A7B-A41B-D39319309239 Q35842267-20631A44-2439-4807-B6DA-6E1DDF8172A6 Q36085138-A8C90432-79A8-4A09-B976-ADE89D7A87C0 Q36167729-C3A1DFC9-DF38-4A95-BBC0-45BDCF8CF2D6 Q36174445-868FECAE-5977-49A4-B1AE-B01EE1BE0ACF Q36547109-92BDD7FB-1084-4805-AFC6-881EEB86C173 Q36667062-3CB0CA09-FAE5-432E-A65D-F37FF51E923F Q36698205-BA652F09-C2D3-4FFA-AB8B-BC229DFEB1DD Q36805505-2B9B1152-1C62-4AEE-9E1F-608263197740 Q36953977-5FE8862C-4D0D-42CF-AD19-C41D3753ABF3 Q37607210-D938FE30-6F12-42E1-91DA-14F6912B890B Q38120455-C0BB557E-066C-42F5-A907-BFAD9BFD25A5 Q38651873-AF441A58-10D5-4C3F-8A14-51573915F5A8 Q39045449-33031256-06BE-428D-B102-9435DB5998B8 Q39573159-E46858EC-F8CA-4745-A146-96C0B5351428 Q39617061-8F6A3BCF-A483-4824-9F01-519C26A50B23 Q42292707-FD49C750-C305-4DB8-97AE-12AB424D6133 Q44406257-88DFD9ED-7EF2-45AC-9623-2D9798998E9C Q44657895-44A99E10-E6E4-44CE-8D99-4C519746327B Q45740474-CD6CE83A-6AB7-476E-A23E-D0FDAC89AE78 Q52424286-7425285D-0751-4091-B4D0-FCC5D2A9ED00 Q58106929-F60A6AFC-E90F-492F-B75B-50692B79BB28 Q59136040-DBA275D6-9C3B-411F-A3EF-F68E1DE28EDD

P2860

Soybean Trihelix transcription factors GmGT-2A and GmGT-2B improve plant tolerance to abiotic stresses in transgenic Arabidopsis

http://www.wikidata.org/entity/Q33500163

description

2009 nî lūn-bûn

@nan

2009 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած

@hyw

2009 թվականի սեպտեմբերին հրատարակված գիտական հոդված

@hy

2009年の論文

@ja

2009年論文

@yue

2009年論文

@zh-hant

2009年論文

@zh-hk

2009年論文

@zh-mo

2009年論文

@zh-tw

2009年论文

@wuu

name

Soybean Trihelix transcription ...... sses in transgenic Arabidopsis

@ast

Soybean Trihelix transcription ...... sses in transgenic Arabidopsis

@en

type

label

Soybean Trihelix transcription ...... sses in transgenic Arabidopsis

@ast

Soybean Trihelix transcription ...... sses in transgenic Arabidopsis

@en

prefLabel

Soybean Trihelix transcription ...... sses in transgenic Arabidopsis

@ast

Soybean Trihelix transcription ...... sses in transgenic Arabidopsis

@en

P1433

Q33500163-0A3F86DD-A91C-46A4-B436-857BE5065AA4

P1476

Q33500163-1A0DAF55-3BB1-4773-B993-8310C7BF8F37

P2093

Q33500163-041564E6-F3AA-4A22-B911-A9304F98CD90

Q33500163-0EB433C9-F42B-4D67-B726-8AF347F0AF18

Q33500163-1147F489-3DE4-4B90-A548-17530EB8D6DC

Q33500163-3BEC79D6-E6E6-4690-A471-72EEC92011E1

Q33500163-4866E922-FD8A-45ED-AB00-0987DB9BB16A

Q33500163-7EA762DC-B1DB-4317-A022-8E52BC047727

Q33500163-9883512F-C168-42C4-A108-4ED868F27E63

Q33500163-9E1A4425-1927-4857-B3A7-25942A3C2AA4

Q33500163-B9200CE2-3827-4935-BAB0-04F868FD069A

Q33500163-C96B7389-2CC1-42B9-BD70-0D398E459D05

P2860

Q33500163-01679D6E-F821-4165-9002-9A4436B01B5A

Q33500163-0409C86F-D66B-4A1E-AC72-9DE4E0B8B4AB

Q33500163-0A2F799D-0B4B-44EE-B523-F4EAC8929209

Q33500163-16280777-A139-45D9-A340-C9C6ABED4FE1

Q33500163-222A7AD6-0666-44C5-828B-F69C2DD94725

Q33500163-23D5F005-314E-49DB-B099-4D26BB0FA7D3

Q33500163-2B115FDA-018F-4144-92B2-4CB7E182EE57

Q33500163-2BA2DE9E-BE02-43CB-B587-E3C24888DE0E

Q33500163-2CF471E2-2442-4E40-BDFF-A97E4921DFBE

Q33500163-2DA2BFFB-DFC3-4A92-9109-CFAB8A52B888

P304

Q33500163-DCF80CD9-E4CE-4B9D-B63B-E2A91F67CC9B

P31

Q33500163-FDAC19FB-15ED-402E-B3D1-9AF03C7F9656

P356

Q33500163-6ABC6AE4-7550-48D9-B5BB-4E44E8EBF99C

P407

Q33500163-98149A66-4994-45D9-9687-01FE21B5BA4F

P433

Q33500163-5D814973-A7A6-4995-BE0C-93E8ECD5F6BD

P478

Q33500163-2D7F55C8-0325-45F2-B605-BA653A57EDA3

P577

Q33500163-82A5B6A0-4ACC-4BD5-BDDE-7226DEE96558

P5875

Q33500163-DEE35680-7181-443E-932E-151B05636DF1

P698

Q33500163-FCDB81C3-D6A3-41C3-A4C3-AB67449F1B22

P932

Q33500163-30CACFF7-0479-46A9-BED2-F4364C36F4B4

P356

JOURNAL.PONE.0006898

P1433

P1476

Soybean Trihelix transcription ...... sses in transgenic Arabidopsis

@en

P2093

Ai-Guo Tian

http://www.w3.org/2001/XMLSchema#string

Biao Ma

http://www.w3.org/2001/XMLSchema#string

Can-Fang Niu

http://www.w3.org/2001/XMLSchema#string

Gang Lei

http://www.w3.org/2001/XMLSchema#string

Hong-Feng Zou

http://www.w3.org/2001/XMLSchema#string

Jin-Song Zhang

http://www.w3.org/2001/XMLSchema#string

Qi-Yun Zhou

http://www.w3.org/2001/XMLSchema#string

Shou-Yi Chen

http://www.w3.org/2001/XMLSchema#string

Wan-Ke Zhang

http://www.w3.org/2001/XMLSchema#string

Wei Wei

http://www.w3.org/2001/XMLSchema#string

P2860

Molecular characterization of the Arabidopsis 9-cis epoxycarotenoid dioxygenase gene family

Conservation and divergence of circadian clock operation in a stress-inducible Crassulacean acid metabolism species reveals clock compensation against stress

Arabidopsis transcription factors: genome-wide comparative analysis among eukaryotes

The transcript abundance of GmGT-2, a new member of the GT-2 family of transcription factors from soybean, is down-regulated by light in a phytochrome-dependent manner.

PlnTFDB: an integrative plant transcription factor database.

Members of the YABBY gene family specify abaxial cell fate in Arabidopsis.

Multifunctionality and diversity within the plant MYB-gene family.

Conservation and innovation in plant signaling pathways.

Regulation of drought tolerance by gene manipulation of 9-cis-epoxycarotenoid dioxygenase, a key enzyme in abscisic acid biosynthesis in Arabidopsis.

Overexpressing a NAM, ATAF, and CUC (NAC) transcription factor enhances drought resistance and salt tolerance in rice

P304

e6898

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1371/JOURNAL.PONE.0006898

http://www.w3.org/2001/XMLSchema#string

P407

P433

9

http://www.w3.org/2001/XMLSchema#string

P478

4

http://www.w3.org/2001/XMLSchema#string

P577

2009-09-04T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

26789871

http://www.w3.org/2001/XMLSchema#string

P698

19730734

http://www.w3.org/2001/XMLSchema#string

P932

2731930

http://www.w3.org/2001/XMLSchema#string